s Revision 1.0, April, 2010 Copyright 2010, Measurement Computing Corporation
All specifications are subject to change without notice. Typical for 25 C unless otherwise specified. s in italic text are guaranteed by design. Analog input Table 1. Analog input specifications Condition A/D converter 16-bit successive approximation type Input ranges Software selectable per channel ±30 V, ±10 V, ±5 V, ±1 V Number of channels 8 differential/16 single-ended, software configurable Input configuration Multiplexed Absolute maximum input voltage CHx_x to AGND ±38 V maximum(power on and power off) Input impedance ±30 V range 1 MΩ (power ON) 1 GΩ (power OFF) ±10 V, ±5 V, ±1 V range 10 GΩ (power ON) 1 GΩ (power OFF) Input leakage current ±100 pa Input capacitance ±30 V range 90 pf ±10 V, ±5 V, ±1 V ranges 55 pf Maximum working voltage (signal+ common mode) ±30 V range ±30.05 V ±10 V, ±5 V, ±1 V ranges ±10.2 V Common mode rejection ratio fin = 60 Hz, ±30V ranges 65 db minimum fin = 60 Hz, all other ranges 75 db minimum Crosstalk DC to 25 khz, adjacent differential -80 db mode channels ADC resolution 16 bits Input bandwidth (-3 db) All input ranges 450 khz minimum Input coupling DC Maximum sampling rate 200 khz A/D pacing sources See input sequencer section Warm up time 30 minutes, minimum Absolute accuracy All ranges 0.07% FSR Noise Differential mode 2 LSB rms Note 1: Unused analog input channels can either be left floating or tied to an AGND pin. Note 2: When using the ±30V input range, keep source impedance and source capacitance as small as possible to minimize settling time, gain and bandwidth errors. Note 3: When connecting differential inputs to floating voltage sources in the ±10 V, ±5 V, ±1 V ranges, the user must provide a DC return path from each differential input to ground. To do this, simply connect a resistor from each of the differential inputs to AGND. A value of approximately 100 kω can be used for most applications. The ±30 V input range incorporates an input resistor attenuator network, which eliminates the need for external bias return compensation resistors. Note 4: The AGND, GND and ENC- pins are tied together internally. These grounds are electrically isolated from the EGND (earth ground) pin. 2
Analog input calibration Table 2. Analog input calibration specifications Calibration method Calibration interval s Factory calibration 1 year, factory calibrated External clock input Table 3. External clock I/O specifications Condition External clock I/O PACER (pin 75), software programmable as input or output Input high voltage 2.2 V maximum Input low voltage 0.6 V minimum Output high voltage IOH = -8 ma 3.8 V minimum Output low voltage IOL = 8 ma 0.4 V maximum Pacer rate 200 khz maximum Minimum pulse width 2.5 us minimum Input sequencer Table 4. Input sequencer specifications Pacer clock sources: two Programmable parameters per scan Depth Pacer interval Channel to channel sampling period (scan clock) s Internal: From 5 µs to 85.9 s in 20 ns steps External (PACER): 5 µs minimum Channel type (differential analog, single ended analog, counter, digital input) Channel number (random order) Gain (any channel specified with a ±30 V range cannot be specified with any other range in the sequence) 512 locations 5 µs minimum (200 khz maximum pacer rate) 5 µs, fixed (analog inputs) All specified digital channels (counters, digital inputs) are sampled simultaneously at the beginning of the pacer interval. 3
Triggering Table 5. Triggering specifications Condition Mode External digital via DTRIG (pin 76) Software configurable for rising or falling edge. External analog via ATRIG (pin 78) See Table 6 Multi-channel analog Level-sensitive based on acquired data. Up to 16 channels may be used as independent trigger sources. Digital pattern trigger Trigger when a user-defined 1 to 16 bit digital pattern is matched on the DIN0-DIN15 pins. Programmable mask bits. External digital trigger latency Non-pretrigger acquisition 100 ns typical, 1 µs maximum Pretrigger acquisition 1 scan period maximum External trigger pulse width 1 µs minimum Internal trigger latency 2* (1/per-channel sample rate) External analog trigger Table 6. External trigger specifications Conditions External analog trigger source ATRIG input (pin 78) Analog trigger input ranges ±30 V, ±10 V, software selectable Absolute maximum input voltage ATRIG_IN to AGND ±38 V maximum (power on and power off) Input impedance ±30V range 1 MΩ (power ON/OFF) ±10V range 10 GΩ (power ON) 1 GΩ (power OFF) Trigger modes Configurable for: Positive or negative slope Level Trigger/Hysteresis resolution 12 bits, 1 in 4096 Trigger/Hysteresis levels ±10V/4096 or ±30V/4096, software configurable Trigger/Hysteresis accuracy ±2% of reading, ±50 mv offset Latency 1.5 µs Full power bandwidth (-3 db) 1 MHz 4
Digital input Table 7. Digital input specifications Number of inputs Input voltage range Input type Input characteristics Maximum input voltage level Minimum high level input voltage threshold Maximum low level input voltage threshold Event logging 16 channels 0 to +28 V TTL 47 kω pull-down resistor, 39.2 KΩ series resistor +32 V (power on/off) 2.0 V maximum 0.8 V minimum Change of state, pattern recognition. Event time stamped using real time clock. Digital output Table 8. Digital output specifications Number of outputs 1 Type Mechanical relay, NEC ED2/EF2 series Relay configuration 1 Form C Relay contact resistance 0.075 Ω Relay contact operate time 3 ms (excluding bounce) Relay contact release time 2 ms (excluding bounce) Relay insulation resistance 1000 MΩ at 500 VDC Relay contact ratings Maximum switching voltage: 220 VDC/250 VAC Maximum switching current: 1.0 A Maximum carrying current: 2.0 A Fault tolerance Condition Power loss Unexpected removal of SD card Power on after fault. Behavior Table 9. Fault condition behavior Volatile memory data loss (internal memory) Data loss if data being written to non-volatile storage. MCC cannot guarantee integrity of existing data on storage device. (Note 5) Data loss if data being written to non-volatile storage. MCC cannot guarantee integrity of existing data on storage device. (Note 5) Unit will restart with existing configuration. Note 5: Solid-state memory devices behave differently under fault conditions. MCC cannot guarantee the integrity of data, both new and existing, in the event of power loss, unexpected media removal, or similar actions. 5
Counters Table 10. Counter specifications Condition Counter type Quadrature (x1, x2, x4) Number of channels 4 Inputs Phase A+/A-, Phase B+/B-, Index +/- Resolution Fixed 32-bit or as sized by the modulo register. Count Modes Quadrature counting Up/down counting Period/frequency counting Modulo-N Debounce times (programmable) Time-base accuracy Receiver type Configuration Differential Single - ended Common mode input voltage range Differential input voltage range Input sensitivity Input hysteresis Input impedance Absolute maximum input voltage Device configuration Differential 16 steps from 500 ns to 25 ms; positive or negative edge sensitive; glitch detect mode or de-bounce mode 50 ppm Quad differential receiver Each channel consists of Phase A input, Phase B input and Index input; each input switch selectable as single-ended or differential Phase A, Phase B and Index (+) inputs at user connector routed to (+) inputs of differential receiver. Phase A, Phase B and Index (-) inputs at user connector routed to (-) inputs of differential receiver. Phase A, Phase B and Index (+) inputs at user connector routed to (+) inputs of differential receiver. Phase A, Phase B and Index (-) inputs at user connector routed to ground. (-) inputs of differential receiver routed to +3 V reference. ±12 V maximum ±12 V maximum ±200 mv 50 mv typical 12 kω minimum ±14 V maximum Table 11. Configuration Local Remote Configuration file format Host PC over USB Via configuration file on SD card Binary 6
Controls/indicators Table 12. Controls/indicators LOAD button SAVE button START button TRIG/EVENT button IND button Reset button SD ACT indicator SD STAT indicator LOG indicator TRIG indicator EVENT indicator Power indicator USB indicator Analog input indicators Digital input indicators Digital output indicator Counter input indicators Loads a configuration from the SD card/enters USB boot loader (hold while applying power) Saves configuration to the SD card Starts an acquisition Forces a trigger/logs an event Turns LED indicators on/off in 3 steps: All on Top indicators only All off Resets the device Indicates SD card read/write activity Indicates SD card/device error condition if blinking Indicates acquisition in progress Indicates trigger occurred Flashes when an event is logged or configuration is loaded or saved (Top LED on case end) Indicates power is good and device is ready (Bottom LED on case end) Indicates USB connection is active, blinks off for USB activity Indicates corresponding analog input is in the acquisition Indicates presence of a voltage at the corresponding digital input pin (not necessarily a high logic level) Indicates relay state Indicates corresponding counter activity Data Memory Table 13. Data Memory Supported removable media Data file format Secure Digital (SD), Secure Digital High Capacity (SDHC) Binary. Data time stamped using real time clock. Power Table 14. Power specifications Condition External power input PWR+ (pin 73)/PWR- (pin 74) External power supply +9 V minimum +30 V maximum Power supply fuse 0157002.DRT. - Littelfuse 2A NANO 2 Slo-Blo Subminiature surface mount fuse Power supply current +9 V input, continuous logging mode 405 ma typical, 655 ma maximum +30 V input, continuous logging mode 165 ma typical, 220 ma maximum Encoder supply External supply of 1.5 A @ 5 VDC fused up to 42.4 V pk (50 V DC ) @ 2 A Protection diodes (30BQ060, 0.5V max drop) protecting against reverse polarity. Encoder supply fuse 0157002.DRT. - Littelfuse 2A NANO 2 Slo-Blo Subminiature Surface Mount Fuse Note 6: The AGND, GND and ENC- pins are tied together internally. These grounds are electrically isolated from the EGND (earth ground) pin. 7
Chassis ground Table 15. Chassis ground specifications Number of inputs Single terminal EGND (pin 80) Isolation method 10 nf/1000 V ceramic capacitor in parallel with 1 MΩ resistor. Note 7: The EGND pin is isolated from the measurement and I/O circuits. The EGND pin should only be used to connect the to a local chassis ground connection and should not be used as a return path for any of the analog or digital I/O. USB specifications Table 16. USB specifications USB device type USB 2.0 (full-speed) USB device compatibility USB 1.1, 2.0 USB cable length 3 meters maximum. USB cable type A-B cable, UL type AWM 2527 or equivalent Environmental Table 17. Environmental specifications Operating temperature range 0 to 55 C Storage temperature range -40 to 85 C Humidity 0 to 90% non-condensing Mechanical Table 18. Mechanical specifications Dimensions 9.5" L x 5.0" W x 1.75" H Screw terminal connector type Table 19. Screw terminal connector specifications Connector type Wire gauge range Detachable type 16 AWG to 30 AWG 8
Screw terminal pin out Table 20. 8-channel differential mode pin out Pin Signal name Pin description Pin Signal name Pin description 1 CH0H Channel 0 HI 96 AGND Analog ground 2 AGND Analog ground 95 CH7L Channel 7 LO 3 CH0L Channel 0 LO 94 AGND Analog ground 4 AGND Analog ground 93 CH7H Channel 7 HI 5 CH1H Channel 1 HI 92 AGND Analog ground 6 AGND Analog ground 91 CH6L Channel 6 LO 7 CH1L Channel 1 LO 90 AGND Analog ground 8 AGND Analog ground 89 CH6H Channel 6 HI 9 CH2H Channel 2 HI 88 AGND Analog ground 10 AGND Analog ground 87 CH5L Channel 5 LO 11 CH2L Channel 2 LO 86 AGND Analog ground 12 AGND Analog ground 85 CH5H Channel 5 HI 13 CH3H Channel 3 HI 84 AGND Analog ground 14 AGND Analog ground 83 CH4L Channel 4 LO 15 CH3L Channel 3 LO 82 AGND Analog ground 16 AGND Analog ground 81 CH4H Channel 4 HI 17 ENC+ Encoder power output 80 EGND Chassis ground 18 0PHA+ PHASE0A+ input 79 AGND Analog ground 19 0PHA- PHASE0A- input 78 ATRIG Analog trigger input 20 0PHB+ PHASE0B+ input 77 GND Digital ground 21 0PHB- PHASE0B- input 76 DTRIG Digital trigger 22 0IDX+ INDEX0+ input 75 PACER Pacer I/O 23 0IDX- INDEX0- input 74 PWR- Input ground 24 ENC- Encoder ground 73 PWR+ Input power 25 ENC+ Encoder power output 72 NC Relay normally closed contact 26 1PHA+ PHASE1A+ input 71 COM Relay common contact 27 1PHA- PHASE1A- input 70 NO Relay normally open contact 28 1PHB+ PHASE1B+ input 69 ENC-I Encoder ground 29 1PHB- PHASE1B- input 68 ENC+I Encoder power input 30 1IDX+ INDEX1+ input 67 GND Digital ground 31 1IDX- INDEX1- input 66 GND Digital ground 32 ENC- Encoder ground 65 GND Digital ground 33 ENC+ Encoder power output 64 DIN15 Digital input 15 34 2PHA+ PHASE2A+ input 63 DIN14 Digital input 14 35 2PHA- PHASE2A- input 62 DIN13 Digital input 13 36 2PHB+ PHASE2B+ input 61 DIN12 Digital input 12 37 2PHB- PHASE2B- input 60 DIN11 Digital input 11 38 2IDX+ INDEX2+ input 59 DIN10 Digital input 10 39 2IDX- INDEX2- input 58 DIN9 Digital input 9 40 ENC- Encoder ground 57 DIN8 Digital input 8 41 ENC+ Encoder power output 56 DIN7 Digital input 7 42 3PHA+ PHASE3A+ input 55 DIN6 Digital input 6 43 3PHA- PHASE3A- input 54 DIN5 Digital input 5 44 3PHB+ PHASE3B+ input 53 DIN4 Digital input 4 45 3PHB- PHASE3B- input 52 DIN3 Digital input 3 46 3IDX+ INDEX3+ input 51 DIN2 Digital input 2 47 3IDX- INDEX3- input 50 DIN1 Digital input 1 48 ENC- Encoder ground 49 DIN0 Digital input 0 9
Table 21. 16-channel single-ended mode pin out Pin Signal name Pin description Pin Signal name Pin description 1 CH0 Channel 0 96 AGND Analog ground 2 AGND Analog ground 95 CH15 Channel 15 3 CH8 Channel 8 94 AGND Analog ground 4 AGND Analog ground 93 CH7 Channel 7 5 CH1 Channel 1 92 AGND Analog ground 6 AGND Analog ground 91 CH14 Channel 14 7 CH9 Channel 9 90 AGND Analog ground 8 AGND Analog ground 89 CH6 Channel 6 9 CH2 Channel 2 88 AGND Analog ground 10 AGND Analog ground 87 CH13 Channel 13 11 CH10 Channel 10 86 AGND Analog ground 12 AGND Analog ground 85 CH5 Channel 5 13 CH3 Channel 3 84 AGND Analog ground 14 AGND Analog ground 83 CH12 Channel 12 15 CH11 Channel 11 82 AGND Analog ground 16 AGND Analog ground 81 CH4 Channel 4 17 ENC+ Encoder power output 80 EGND Chassis ground 18 0PHA+ PHASE0A+ input 79 AGND Analog ground 19 0PHA- PHASE0A- input 78 ATRIG Analog trigger input 20 0PHB+ PHASE0B+ input 77 GND Digital ground 21 0PHB- PHASE0B- input 76 DTRIG Digital trigger 22 0IDX+ INDEX0+ input 75 PACER Pacer I/O 23 0IDX- INDEX0- input 74 PWR- Input ground 24 ENC- Encoder ground 73 PWR+ Input power 25 ENC+ Encoder power output 72 NC Relay normally closed contact 26 1PHA+ PHASE1A+ input 71 COM Relay common contact 27 1PHA- PHASE1A- input 70 NO Relay normally open contact 28 1PHB+ PHASE1B+ input 69 ENC-I Encoder ground 29 1PHB- PHASE1B- input 68 ENC+I Encoder power input 30 1IDX+ INDEX1+ input 67 GND Digital ground 31 1IDX- INDEX1- input 66 GND Digital ground 32 ENC- Encoder ground 65 GND Digital ground 33 ENC+ Encoder power output 64 DIN15 Digital input 15 34 2PHA+ PHASE2A+ input 63 DIN14 Digital input 14 35 2PHA- PHASE2A- input 62 DIN13 Digital input 13 36 2PHB+ PHASE2B+ input 61 DIN12 Digital input 12 37 2PHB- PHASE2B- input 60 DIN11 Digital input 11 38 2IDX+ INDEX2+ input 59 DIN10 Digital input 10 39 2IDX- INDEX2- input 58 DIN9 Digital input 9 40 ENC- Encoder ground 57 DIN8 Digital input 8 41 ENC+ Encoder power output 56 DIN7 Digital input 7 42 3PHA+ PHASE3A+ input 55 DIN6 Digital input 6 43 3PHA- PHASE3A- input 54 DIN5 Digital input 5 44 3PHB+ PHASE3B+ input 53 DIN4 Digital input 4 45 3PHB- PHASE3B- input 52 DIN3 Digital input 3 46 3IDX+ INDEX3+ input 51 DIN2 Digital input 2 47 3IDX- INDEX3- input 50 DIN1 Digital input 1 48 ENC- Encoder ground 49 DIN0 Digital input 0 10
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